using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Diagnostics.CodeAnalysis;
using System.Globalization;
using System.Linq;
using System.Reflection;
using static PKHeX.Core.MessageStrings;
using static PKHeX.Core.BatchModifications;
namespace PKHeX.Core
{
///
/// Logic for editing many with user provided list.
///
public static class BatchEditing
{
public static readonly Type[] Types =
{
typeof (PK8),
typeof (PB7),
typeof (PK7), typeof (PK6), typeof (PK5), typeof (PK4), typeof(BK4),
typeof (PK3), typeof (XK3), typeof (CK3),
typeof (PK2), typeof (SK2), typeof (PK1),
};
///
/// Extra properties to show in the list of selectable properties (GUI)
///
public static readonly List CustomProperties = new()
{
PROP_LEGAL, PROP_TYPENAME, PROP_RIBBONS,
IdentifierContains, nameof(ISlotInfo.Slot), nameof(SlotInfoBox.Box),
};
///
/// Property names, indexed by .
///
public static readonly string[][] Properties = GetPropArray();
private static readonly Dictionary[] Props = GetPropertyDictionaries(Types);
private static Dictionary[] GetPropertyDictionaries(IReadOnlyList types)
{
var result = new Dictionary[types.Count];
for (int i = 0; i < types.Count; i++)
result[i] = GetPropertyDictionary(types[i], ReflectUtil.GetAllPropertyInfoPublic);
return result;
}
private static Dictionary GetPropertyDictionary(Type type, Func> selector)
{
var dict = new Dictionary();
var props = selector(type);
foreach (var p in props)
{
if (!dict.ContainsKey(p.Name))
dict.Add(p.Name, p);
}
return dict;
}
internal const string CONST_RAND = "$rand";
internal const string CONST_SHINY = "$shiny";
private const string CONST_SUGGEST = "$suggest";
private const string CONST_BYTES = "$[]";
internal const string PROP_LEGAL = "Legal";
internal const string PROP_TYPENAME = "ObjectType";
internal const string PROP_RIBBONS = "Ribbons";
internal const string IdentifierContains = nameof(IdentifierContains);
private static string[][] GetPropArray()
{
var p = new string[Types.Length][];
for (int i = 0; i < p.Length; i++)
{
var pz = ReflectUtil.GetPropertiesPublic(Types[i]);
p[i] = pz.Concat(CustomProperties).OrderBy(a => a).ToArray();
}
// Properties for any PKM
var any = ReflectUtil.GetPropertiesPublic(typeof(PK1)).Union(p.SelectMany(a => a)).OrderBy(a => a).ToArray();
// Properties shared by all PKM
var all = p.Aggregate(new HashSet(p[0]), (h, e) => { h.IntersectWith(e); return h; }).OrderBy(a => a).ToArray();
var p1 = new string[Types.Length + 2][];
Array.Copy(p, 0, p1, 1, p.Length);
p1[0] = any;
p1[^1] = all;
return p1;
}
///
/// Tries to fetch the property from the cache of available properties.
///
/// Pokémon to check
/// Property Name to check
/// Property Info retrieved (if any).
/// True if has property, false if does not.
public static bool TryGetHasProperty(PKM pk, string name, [NotNullWhen(true)] out PropertyInfo? pi)
{
var type = pk.GetType();
return TryGetHasProperty(type, name, out pi);
}
///
/// Tries to fetch the property from the cache of available properties.
///
/// Type to check
/// Property Name to check
/// Property Info retrieved (if any).
/// True if has property, false if does not.
public static bool TryGetHasProperty(Type type, string name, [NotNullWhen(true)] out PropertyInfo? pi)
{
var index = Array.IndexOf(Types, type);
if (index < 0)
{
pi = null;
return false;
}
var props = Props[index];
return props.TryGetValue(name, out pi);
}
///
/// Gets a list of types that implement the requested .
///
public static IEnumerable GetTypesImplementing(string property)
{
for (int i = 0; i < Types.Length; i++)
{
var type = Types[i];
var props = Props[i];
if (!props.TryGetValue(property, out var pi))
continue;
yield return $"{type.Name}: {pi.PropertyType.Name}";
}
}
///
/// Gets the type of the property using the saved cache of properties.
///
/// Property Name to fetch the type for
/// Type index (within . Leave empty (0) for a nonspecific format.
/// Short name of the property's type.
public static string? GetPropertyType(string propertyName, int typeIndex = 0)
{
if (CustomProperties.Contains(propertyName))
return "Custom";
if (typeIndex == 0) // Any
{
foreach (var p in Props)
{
if (p.TryGetValue(propertyName, out var pi))
return pi.PropertyType.Name;
}
return null;
}
int index = typeIndex - 1 >= Props.Length ? 0 : typeIndex - 1; // All vs Specific
var pr = Props[index];
if (!pr.TryGetValue(propertyName, out var info))
return null;
return info.PropertyType.Name;
}
///
/// Initializes the list with a context-sensitive value. If the provided value is a string, it will attempt to convert that string to its corresponding index.
///
/// Instructions to initialize.
public static void ScreenStrings(IEnumerable il)
{
foreach (var i in il.Where(i => !i.PropertyValue.All(char.IsDigit)))
{
string pv = i.PropertyValue;
if (pv.StartsWith("$") && !pv.StartsWith(CONST_BYTES) && pv.Contains(','))
i.SetRandRange(pv);
SetInstructionScreenedValue(i);
}
}
///
/// Initializes the with a context-sensitive value. If the provided value is a string, it will attempt to convert that string to its corresponding index.
///
/// Instruction to initialize.
private static void SetInstructionScreenedValue(StringInstruction i)
{
switch (i.PropertyName)
{
case nameof(PKM.Species): i.SetScreenedValue(GameInfo.Strings.specieslist); return;
case nameof(PKM.HeldItem): i.SetScreenedValue(GameInfo.Strings.itemlist); return;
case nameof(PKM.Ability): i.SetScreenedValue(GameInfo.Strings.abilitylist); return;
case nameof(PKM.Nature): i.SetScreenedValue(GameInfo.Strings.natures); return;
case nameof(PKM.Ball): i.SetScreenedValue(GameInfo.Strings.balllist); return;
case nameof(PKM.Move1) or nameof(PKM.Move2) or nameof(PKM.Move3) or nameof(PKM.Move4):
case nameof(PKM.RelearnMove1) or nameof(PKM.RelearnMove2) or nameof(PKM.RelearnMove3) or nameof(PKM.RelearnMove4):
i.SetScreenedValue(GameInfo.Strings.movelist); return;
}
}
///
/// Checks if the object is filtered by the provided .
///
/// Filters which must be satisfied.
/// Object to check.
/// True if matches all filters.
public static bool IsFilterMatch(IEnumerable filters, PKM pk) => filters.All(z => IsFilterMatch(z, pk, Props[Array.IndexOf(Types, pk.GetType())]));
///
/// Checks if the object is filtered by the provided .
///
/// Filters which must be satisfied.
/// Object to check.
/// True if matches all filters.
public static bool IsFilterMatchMeta(IEnumerable filters, SlotCache pk)
{
foreach (var i in filters)
{
foreach (var filter in BatchFilters.FilterMeta)
{
if (!filter.IsMatch(i.PropertyName))
continue;
if (!filter.IsFiltered(pk, i))
return false;
break;
}
}
return true;
}
///
/// Checks if the object is filtered by the provided .
///
/// Filters which must be satisfied.
/// Object to check.
/// True if matches all filters.
public static bool IsFilterMatch(IEnumerable filters, object obj)
{
foreach (var cmd in filters)
{
if (cmd.PropertyName is PROP_TYPENAME)
{
if ((obj.GetType().Name == cmd.PropertyValue) != cmd.Evaluator)
return false;
continue;
}
if (!ReflectUtil.HasProperty(obj, cmd.PropertyName, out var pi))
return false;
try
{
if (pi.IsValueEqual(obj, cmd.PropertyValue) == cmd.Evaluator)
continue;
}
#pragma warning disable CA1031 // Do not catch general exception types
// User provided inputs can mismatch the type's required value format, and fail to be compared.
catch (Exception e)
#pragma warning restore CA1031 // Do not catch general exception types
{
Debug.WriteLine($"Unable to compare {cmd.PropertyName} to {cmd.PropertyValue}.");
Debug.WriteLine(e.Message);
}
return false;
}
return true;
}
///
/// Tries to modify the .
///
/// Object to modify.
/// Filters which must be satisfied prior to any modifications being made.
/// Modifications to perform on the .
/// Result of the attempted modification.
public static bool TryModify(PKM pk, IEnumerable filters, IEnumerable modifications)
{
var result = TryModifyPKM(pk, filters, modifications);
return result == ModifyResult.Modified;
}
///
/// Tries to modify the .
///
/// Command Filter
/// Filters which must be satisfied prior to any modifications being made.
/// Modifications to perform on the .
/// Result of the attempted modification.
internal static ModifyResult TryModifyPKM(PKM pk, IEnumerable filters, IEnumerable modifications)
{
if (!pk.ChecksumValid || pk.Species == 0)
return ModifyResult.Invalid;
var info = new BatchInfo(pk);
var pi = Props[Array.IndexOf(Types, pk.GetType())];
foreach (var cmd in filters)
{
try
{
if (!IsFilterMatch(cmd, info, pi))
return ModifyResult.Filtered;
}
#pragma warning disable CA1031 // Do not catch general exception types
// Swallow any error because this can be malformed user input.
catch (Exception ex)
#pragma warning restore CA1031 // Do not catch general exception types
{
Debug.WriteLine(MsgBEModifyFailCompare + " " + ex.Message, cmd.PropertyName, cmd.PropertyValue);
return ModifyResult.Error;
}
}
ModifyResult result = ModifyResult.Modified;
foreach (var cmd in modifications)
{
try
{
var tmp = SetPKMProperty(cmd, info, pi);
if (tmp != ModifyResult.Modified)
result = tmp;
}
#pragma warning disable CA1031 // Do not catch general exception types
// Swallow any error because this can be malformed user input.
catch (Exception ex)
#pragma warning restore CA1031 // Do not catch general exception types
{
Debug.WriteLine(MsgBEModifyFail + " " + ex.Message, cmd.PropertyName, cmd.PropertyValue);
}
}
return result;
}
///
/// Sets the if the should be filtered due to the provided.
///
/// Command Filter
/// Pokémon to check.
/// PropertyInfo cache (optional)
/// True if filtered, else false.
private static ModifyResult SetPKMProperty(StringInstruction cmd, BatchInfo info, IReadOnlyDictionary props)
{
var pk = info.Entity;
if (cmd.PropertyValue.StartsWith(CONST_BYTES))
return SetByteArrayProperty(pk, cmd);
if (cmd.PropertyValue.StartsWith(CONST_SUGGEST, true, CultureInfo.CurrentCulture))
return SetSuggestedPKMProperty(cmd.PropertyName, info, cmd.PropertyValue);
if (cmd.PropertyValue == CONST_RAND && cmd.PropertyName == nameof(PKM.Moves))
return SetMoves(pk, info.Legality.GetMoveSet(true));
if (SetComplexProperty(pk, cmd))
return ModifyResult.Modified;
if (!props.TryGetValue(cmd.PropertyName, out var pi))
return ModifyResult.Error;
if (!pi.CanWrite)
return ModifyResult.Error;
object val = cmd.Random ? cmd.RandomValue : cmd.PropertyValue;
ReflectUtil.SetValue(pi, pk, val);
return ModifyResult.Modified;
}
///
/// Checks if the should be filtered due to the provided.
///
/// Command Filter
/// Pokémon to check.
/// PropertyInfo cache (optional)
/// True if filter matches, else false.
private static bool IsFilterMatch(StringInstruction cmd, BatchInfo info, IReadOnlyDictionary props)
{
var match = BatchFilters.FilterMods.Find(z => z.IsMatch(cmd.PropertyName));
if (match != null)
return match.IsFiltered(info, cmd);
return IsPropertyFiltered(cmd, info.Entity, props);
}
///
/// Checks if the should be filtered due to the provided.
///
/// Command Filter
/// Pokémon to check.
/// PropertyInfo cache (optional)
/// True if filter matches, else false.
private static bool IsFilterMatch(StringInstruction cmd, PKM pk, IReadOnlyDictionary props)
{
var match = BatchFilters.FilterMods.Find(z => z.IsMatch(cmd.PropertyName));
if (match != null)
return match.IsFiltered(pk, cmd);
return IsPropertyFiltered(cmd, pk, props);
}
///
/// Checks if the should be filtered due to the provided.
///
/// Command Filter
/// Pokémon to check.
/// PropertyInfo cache
/// True if filtered, else false.
private static bool IsPropertyFiltered(StringInstruction cmd, PKM pk, IReadOnlyDictionary props)
{
if (!props.TryGetValue(cmd.PropertyName, out var pi))
return false;
if (!pi.CanRead)
return false;
return pi.IsValueEqual(pk, cmd.PropertyValue) == cmd.Evaluator;
}
///
/// Sets the data with a suggested value based on its .
///
/// Property to modify.
/// Cached info storing Legal data.
/// Suggestion string which starts with
private static ModifyResult SetSuggestedPKMProperty(string name, BatchInfo info, string propValue)
{
var first = BatchMods.SuggestionMods.Find(z => z.IsMatch(name, propValue, info));
if (first != null)
return first.Modify(name, propValue, info);
return ModifyResult.Error;
}
///
/// Sets the byte array property to a specified value.
///
/// Pokémon to modify.
/// Modification
private static ModifyResult SetByteArrayProperty(PKM pk, StringInstruction cmd)
{
switch (cmd.PropertyName)
{
case nameof(PKM.Nickname_Trash):
pk.Nickname_Trash = ConvertToBytes(cmd.PropertyValue);
return ModifyResult.Modified;
case nameof(PKM.OT_Trash):
pk.OT_Trash = ConvertToBytes(cmd.PropertyValue);
return ModifyResult.Modified;
default:
return ModifyResult.Error;
}
static byte[] ConvertToBytes(string str) => str[CONST_BYTES.Length..].Split(',').Select(z => Convert.ToByte(z.Trim(), 16)).ToArray();
}
///
/// Sets the property to a non-specific smart value.
///
/// Pokémon to modify.
/// Modification
/// True if modified, false if no modifications done.
private static bool SetComplexProperty(PKM pk, StringInstruction cmd)
{
if (cmd.PropertyName.StartsWith("IV") && cmd.PropertyValue == CONST_RAND)
{
SetRandomIVs(pk, cmd);
return true;
}
var match = BatchMods.ComplexMods.Find(z => z.IsMatch(cmd.PropertyName, cmd.PropertyValue));
if (match == null)
return false;
match.Modify(pk, cmd);
return true;
}
///
/// Sets the IV(s) to a random value.
///
/// Pokémon to modify.
/// Modification
private static void SetRandomIVs(PKM pk, StringInstruction cmd)
{
if (cmd.PropertyName == nameof(PKM.IVs))
{
pk.SetRandomIVs();
return;
}
if (TryGetHasProperty(pk, cmd.PropertyName, out var pi))
ReflectUtil.SetValue(pi, pk, Util.Rand.Next(pk.MaxIV + 1));
}
}
}